Tuesday, 29 November 2011

Essay plan

I wanted to make a plan or summary of what I'm going to talk about so I don't get confused about the layout when I start writing up my report. I am worried that talking about 3 diseases will be unnecessary as they're quite similar to each other and I might end up repeating the same information in the report. If I decide to change my topic idea in the next few days I'll need to make a new plan.

Sunday, 27 November 2011

Using google calendar

I made new deadlines on my google calendar.

Huntington's disease

Huntington’s disease is a hereditary neurological disorder of the central nervous system that causes progressive degeneration of cells in the brain, slowly impairing a person's ability to walk, think, talk and reason.

  • Huntington’s Disease is also called Huntington’s Chorea.  Chorea means dance which refers to the jerky symptoms of patients with the disease.
  • Huntington’s Disease was first discovered by Dr. George Huntington.  The disease is named after him.
How do you get Huntington’s Disease?
Huntington's disease is caused by a genetic defect on chromosome 4. The defect causes a part of DNA, called a CAG repeat, to occur many more times than it is supposed to. Normally, this section of DNA is repeated 10 to 28 times. But in persons with Huntington's disease, it is repeated 36 to 120 times. Scientists are not sure how this works, but the extra copies cause the accumulation of toxic protein in your brain.  The more copies you have, the sooner you will get Huntington’s Disease and the more severe your symptoms will be.    
As the gene is passed down through families, the number of repeats tend to get larger. The larger the number of repeats, the greater your chance of developing symptoms at an earlier age. Therefore, as the disease is passed along in families, symptoms develop at younger and younger ages.
The tragedy is that by the time symptoms appear, the person has often had a family and may have passed on the gene to their children. Each person whose parent has Huntington's disease has a 50 per cent chance of inheriting the gene, and everyone who inherits the gene will at some stage develop the disease.

The disease can't be prevented from developing if someone has the faulty gene. To inherit the illness, the gene only has to come from one parent, making it autosomal dominant.
The gene for Huntington's disease can be detected with a blood test that can determine whether someone has the faulty gene and help them in their family planning.

Is there a cure for Huntington’s Disease?
No there is not a cure for Huntington’s Disease.  There is not even a treatment that will help slow the progression of the disease down.  However, there is medicine that will make the patient more comfortable, that will help reduce the symptoms. It’s important for people with Huntington’s Disease to stay in shape.  This helps reduce jerky movement and, like most things, people who exercise tend to do better than those who don’t.  Physical Therapy is very important as well as speech therapy to help the patient lead a more normal life. Huntington’s Disease patients need assistance performing the simplest of tasks.  That is why 24-hour care is eventually needed. Since the risk of getting Huntington’s Disease is so high if one of your parents has the gene, most people who know they have the gene chose to adopt so that their children won’t inherit the disease.

Symptoms
There is a long list of symptoms for Huntington’s Disease.  The disease causes behavioral changes such as irritability, moodiness, and antisocial behaviors.  It causes restlessness, fidgeting, paranoia, and hallucinations.  People with Huntington’s Disease lose their memory and their judgement.  They experience personality changes, confusion, disorientation, anxiety, stress, and tension.  They also lose their ability to speak.  
    
Huntington’s disease also effects people’s motor skills.  They walk unsteadily and suffer from quick and sudden jerking movements of their limbs.  They also have difficulty swallowing. If a child suffers from Huntington’s Disease symptoms they will have slow movements, tremors, and rigidity.   Overall, people with Huntington’s Disease lose the ability to care for themselves and to interact with others.  They have the potential to injure themselves of others and they have increased risk of infections.  Many people who suffer from Huntington’s Disease also suffer from depression.  A lot of Huntington’s Disease patients’deaths’ are caused by suicide and not the actual disease. Huntington’s Disease is a horrible condition that makes day to day life impossible.  Within 15 to 20 years after you see symptoms, this disorder becomes fatal.

Ethical issues
There are ethical concerns related to prenatal genetic testing or preimplantation genetic diagnosis to ensure a child is not born with a given disease. For example, prenatal testing raises the issue of selective abortion, a choice considered unacceptable by some. Using preimplantation testing for HD requires twice as many embryos to be used for in vitro fertilization, as half of them will be positive for HD. As it is a dominant disease, there are difficulties in situations in which a parent does not want to know his or her own diagnosis. This would require parts of the process to be kept secret from the parent.

Friday, 25 November 2011

Amyotrophic lateral sclerosis



Amyotrophic lateral sclerosis (ALS) is the death of both upper and lower motor neurons in the motor cortex of the brain, the brain stem, and the spinal cord.
ALS is also known as Lou Gehrig's disease after the famous baseball player who died from this condition.

Motor neurons are nerve cells that control muscle movement. Upper motor neurons send messages from the brain to the spinal cord, and lower motor neurons send messages from the spinal cord to the muscles allowing movement. Motor neurons are an important part of the body's neuromuscular system.


Etymologically:
Amyotrophic- lack of muscle nourishment
Lateral- portion of the spinal cord where motor neuron damage occurs
Sclerosis- neuronal degeneration causes scarring and hardening of tissue.



As a result of neurons degenerating this condition leads to muscle weakening, twitching, and an inability to move the arms, legs, and body. Hence a debilitating disease. When the muscles in the chest area stop working, it becomes hard or impossible to breathe on one's own.
ALS does not affect the senses (sight, smell, taste, hearing, touch). And it only rarely affects bladder or bowel function, or a person's ability to think or reason.

The cause
For patients without a family history of the disease, which includes -95% of cases, there is no known cause for ALS. There is a known hereditary factor in familial ALS (FALS), where the condition is known to run in families, although this accounts for only around 5% of all cases. An inherited genetic defect on chromosome 21 (coding for superoxide dismutase) is associated with approximately 20% of familial cases of ALS.This mutation is believed to be autosomal dominant
Treatment: There is no known cure for ALS. The first drug treatment for the disease is a medicine called riluzole. Riluzole slows the disease progression and prolongs life.Treatments to control symptoms are also helpful:
• Baclofen or diazepam may be used to control spasticity that interferes with daily activities.
• Trihexyphenidyl or amitriptyline may be prescribed for people with problems swallowing their own saliva.
Physical therapy, rehabilitation, use of braces or a wheelchair, or other orthopedic measures may be needed to maximize muscle function and general health.
Choking is common. Patients may decide to have a tube placed into their stomach for feeding, called a gastrostomy.
A nutritionist is very important. Patients with ALS tend to lose weight. The illness itself increases the need for food and calories. At the same time, problems with swallowing make it hard to eat enough.
Breathing devices include machines that are used only at night, and constant mechanical ventilation.
Support Groups: Emotional support is vital in coping with the disorder, because mental functioning is not affected. Groups such as the ALS Association may be available to help people who are coping with the disorder.

Research 
Scientists are seeking to understand the mechanisms that trigger selective motor neurons to degenerate in ALS and to find effective approaches to halt the processes leading to cell death. 

This work includes studies in animals to identify the means by which SOD1 mutations lead to the destruction of neurons. The excessive accumulation of free radicals, which has been implicated in a number of neurodegenerative diseases including ALS, is also being closely studied. 

In addition, researchers are examining how the loss of neurotrophic factors may be involved in ALS. Neurotrophic factors are chemicals found in the brain and spinal cord that play a vital role in the development, specification, maintenance, and protection of neurons. Researchers hope to find the cause or causes of motor neuron degeneration in ALS and develop therapies to slow the progression of the disease.




Stem Cell Therapy
One of the proposed future therapies for ALS is stem cell therapy, where stem cells harvested from either human bone marrow or preserved umbilical cord blood can be implanted in the patient to replace damaged cells. In a neurodegenerative disease like ALS, cells adjacent to motor neurons in the surrounding area of the body become damaged as well, causing widespread cell death and a rapid decrease in normal functioning in the patient. These stem cells would be directed to the damaged area and provide necessary growth factors to the damaged or dying motor neurons and other cells.

This breakthrough has raised several concerns that could halt the progression of research in this field. the many controversial ethical implications that have followed the stem cell debated for years must be taken into consideration. Although the implantation of the stem cells into the site of damage has been very successful in animal models, there has been little evidence that they connect with their desired targets (motor neurons to muscle fibres). Motor neurons must connect to muscle fibres over distance of up to 3 meters and making this connection is vital to the regeneration of activity. An additional concern in stem cell therapy research is the possibility of immuno-rejection of foreign cells by the body's immune system.





what may have appeared to be impossible several years ago of particular relevance to ALS is whether stem cells can be directed to generate motor neurons. Research in Dr. Tom Jessell's laboratory demonstrates that mouse embryonic stem cells can indeed be differentiated into motor neurons and when introduced into the spinal cord of embryonic chicks, motor axons form contacts with skeletal muscle. This promising research demonstrates the progress that has recently been made. Scientists acknowledge that the leap from an embryonic chick to a human adult is huge and currently an unobtainable goal. However, the promise of stem cells as vehicles for trophic support for dying neurons is possibly a more feasible goal and many studies are focusing on this approach. Several studies have shown that embryonic stem cells in culture can be genetically modified. Using this technology, stem cells can be modified to deliver genes and other factors to dying motor neurons. More research is needed in this area.
There are currently no human clinical trials however a few unpublished efforts have been disclosed using bone marrow and cord blood stem cells in humans and are in very early stages. With all the excitement and possibilities stem cells have to offer as a therapy, it is critical that scientists  and clinicians are cautious and plan rigorous studies. If ethical concerns can be properly addressed and continued research regarding the innervation of nerve projections sees progress, a human-model clinical trial can take place in the near future.

Wednesday, 23 November 2011

Finding a Plan

After a few discussions with my supervisor I decided on preparing a power point presentation and an essay. She also advised me to prepare a plan for my project by using google calendar and so I did: (https://www.google.com/calendar/render?hl=en&pli=1) I will use this as a guide for my project.

What causes Parkinson's disease (what changes happens in the brain)

Within our brains the basal ganglia is one of the body's motion control centre. Inside the basal ganglia is a region called the striatum which allows us to direct our body's movements to accomplish what we want to do. Below the striatum is an area called the substantia nigra. This area is rich in cells that produce a chemical called dopamine, these dopamine producing cells have long wire like projections that connect them to the striatum. When the substantia nigra sends a signal these cells release dopamine into the striatum. Inside the striatum dopamine helps the striatal cells receive the brains motion control messages.


In the healthy brain plenty of dopamine is available to help these brain cells do their job. In Parkinson's disease the dopamine producing nerve cells in the substantia nigra die. As a result the long wire like projections of these cells disappear unless dopamine is provided to the striatum to help movement messages get through. This leads to the cardinal features of Parkinson's disease, for example slowness of movement, tremor and rigidity.
(7)
Parkinson's disease is a degenerative disease, which means that these symptoms will get worse overtime as more dopamine cells are lost. PD. also causes symptoms that aren't movement related, including: 
  • Problems with gait and balance
  • Cognitive dysfunction
  • Depression
  • Constipation
Scientists are not sure what causes these symptoms and no treatments effectively address them. Research is on going to better understand these symptoms as well as the dopamine degeneration seen in PD. This will help us develop treatment to improve patients quality of life.(5)

Tuesday, 22 November 2011

Bibliography

  1. http://www.holisticonline.com/images/PD-ama-schematic1.GIF
  2. http://www.holisticonline.com/remedies/parkinson/pd_brain.htm
  3. http://video.about.com/seniorhealth/Parkinson-s-Disease.htm
  4. http://www.michaeljfox.org/about_ourMission.cfm
  5. http://www.michaeljfox.org/living.cfm#
  6. http://www.patient.co.uk/health/Parkinson's-Disease.htm
  7. http://speakcampaigns.org/images/PD/basal_ganglia_detail-web.gif
  8. http://blog.amsvans.com/wp-content/uploads/2011/07/alsnerves.gif
  9. http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0001708/
  10. http://www.alsa.org/research/about-als-research/primer-on-stem-cells.html
  11. http://kidshealth.org/kid/grownup/conditions/als.html
  12. http://www.ninds.nih.gov/disorders/amyotrophiclateralsclerosis/detail_ALS.htm
  13. http://lh6.ggpht.com/_XNVS6Bkyaac/TOkRRJ3mmI/AAAAAAAABMo/Hr5mTLgQz7w/alsdiagram3.jpg
  14. http://stemcell-treatments.blogspot.com/
  15. https://sites.google.com/a/conncoll.edu/neurobiology-of-disease/home/amyotrophic-lateral-sclerosis-als---kelsey-fredericks-and-paige-landry
  16. http://en.wikipedia.org/wiki/Amyotrophic_lateral_sclerosis
  17. http://en.wikipedia.org/wiki/File:Mesenchymal_Stem_Cell.jpg
  18. http://www.guardian.co.uk/science/2011/nov/06/stem-cells-brain-parkinsons-disease
  19. http://cbhd.org/stem-cell-research/overview
  20. Nardi, N. Beyer; da Silva Meirelles, L. (2006). "Mesenchymal Stem Cells: Isolation, In Vitro Expansion and Characterization".
  21. ScienceDaily. Retrieved December 5, 2011, from http://www.sciencedaily.com /releases/2011/02/110208163504.htm
  22. http://www.bbc.co.uk/news/health-14591364
  23. http://www.news-medical.net/news/20110812/New-model-for-amyotrophic-lateral-sclerosis.aspx (NIH/National Institute of Neurological Disorders and Stroke)
  24. http://jcb.rupress.org/content/187/6/761/F2.large.jpg

      Medical treatment for Parkinson's

      Treatment is aimed at abolishing as far as possible the symptoms and disabilities caused by Parkinson's. But these dugs cannot prevent brain cell degeneration.
      What the available drugs will do is to reverse the symptoms by replacing the essential chemicals, such as dopamine, necessary for the normal transmission of nerve impulses and control of movements.


      At an early stage most patients should be referred to a hospital specialist, usually a neurologist in order to confirm the diagnosis, and to obtain advice about the immediate and future prospects of treatment.


      Drug treatment: Patients with Parkinson's have a deficiency of essential dopamine and the excess of acetylcholine. Early treatment consists of drugs called anticholinergics, which diminish acetylcholine and work to restore the balance with dopamine. These drugs are valuable for treating early tremors and rigidity. Also good at controlling salivation and drooling. However these drugs are generally used in younger patients who don't have the added complications of the elderly. Drugs include: Orphenadrin and Benzhexol
      Other drug treatments include: levodopa drugs (for moderate and severe Parkinson's), dopamine agonists and selegiline (weak anti-parkinsonian drug)


      Combinations of levodopa with carbidopa or benserazide are the most effective drugs. Unwanted side-effects can be reduced by altering the drug dose and timing.
      In Parkinson’s disease, degeneration of parts of the basal ganglia causes a lack of dopamine within this part of the brain. The basal ganglia are thus prevented from modifying the nerve pathways that control muscle contraction. As a result, the muscles are overly tense, causing tremor, joint rigidity, and slow movement. Most drug treatments increase the level of dopamine in the brain or oppose the action of acetylcholine.



      (1)


      However all drug treatments also have their own side-effects, some examples are nausea and vomiting, fainting, Dyskinesia and dystonia, mental confusion and hallucinations and aggressive behaviour.


      Gene Therapy: holds considerable potential for the treatment of central nervous system disease. It aims to introduce a protein, which can protect against cell damage or permit the physiological delivery of a deficient neurotransmitter. The strategies for gene therapy techniques have expanded toward the use of factors that induce nerve cell growth in enhancing cell function or preventing cell death.


      Surgery is another treatment that consists of either destruction of tiny parts of the brain (stereotactic surgery) or transplantation of dopamine-producing tissue into the brain. Surgery for Parkinson's is rarely recommended. Examples: nigral transplants and fetal tissue transplant. There are ethical problems in obtaining and using fetal donor tissue, and the long-term benefits are not yet known.


      However, it's encouraging that robust survival of fetal nigral implants can be achieved within the human brain; these can give a new nerve supply to the damaged nerve cells in the basal ganglia. But it's not known whether those agents that primarily cause the disease will also destroy the graft.


      There is far more to the treatment of the patient than just the administration of drugs, for example Physiotherapy, occupational therapy and speech therapy are valuable for an effective treatment.


      Simple physical movements, such as getting out of a chair, may become increasingly difficult for patients as physical disabilities hinder action. In this case regular exercise is beneficial.
      I obtained information from a range of books called: Family doctor guide to Parkinson's disease, Living well with Parkinson's disease and explaining Parkinson's.


      Also as I was searching for Parkinson's related videos I found one about Actor Michael J Fox who also suffers from Parkinson's. The video explains his journey with this condition. Currently he has his own campaign called "Michael J Fox Foundation for Parkinson's Research". The website for this campaign http://www.michaeljfox.org/ includes a section called 'living with Parkinson's' that has useful information on how Parkinson's disease affects the brain. 





      The Michael J. Fox Foundation is dedicated to finding a cure for Parkinson’s disease through an aggressively funded research agenda and to ensuring the development of improved therapies for those living with Parkinson’s today.
      Michael J Fox believes that if there is a concentrated effort from the Parkinson’s community, elected representatives in Washington, DC, and the general public, researchers can pinpoint the cause of Parkinson’s and uncover a cure within our lifetime. The foundation works with leading Parkinson's experts to determine the most promising areas for research. It's inspiring that Fox has played strongly against his Parkinson's disease by aiming to find a cure, this requires hard work and compassion for the other sufferers of Parkinson's. But also makes the possibility of finding a cure with many other passionate researchers around the world more likely.


      Fox teamed up with Nike to produce the Nike Mag shoes. 1500 pairs of Nike MAG shoes were auctioned on eBay to benefit his foundation. An astonishing $4.7 million was raised which will go to the Foundation’s research programs to help speed the search for a cure for Parkinson’s.(4)






      Saturday, 19 November 2011

      The Human Brain

      I started reading The Human Brain and its disorders. It covers a whole range of neurodegenerative conditions and the basics about the brain. The book also includes a few case studies for each disease.
      Some information I found from websites include: Parkinson’s disease is a progressive condition caused by the decreased production of dopamine when the area of the brain which produces a neurotransmitter is substantively damaged. The neurotransmitter, dopamine, is responsible for the communication of electrical impulses that control muscle motion.
      Although physicians are well aware of why the symptoms of Parkinson's disease occur, they are unable to determine why that area of the brain becomes damaged in the first place.



      Friday, 18 November 2011

      Title



      Neurodegeneration, impact and prognosis: An investigation into the effects of neurodegenerative conditions on the brain and what treatment is available.

      I'm going to focus on 3 conditions: Parkinson’s, Huntington’s and Amyotrophic Lateral Sclerosis. They all have similar symptoms and characteristics but differ in the way they affect the brain.

      Thursday, 17 November 2011

      Neurodegeneration








      Neurodegeneration is the umbrella term for the progressive loss of structure or function of neurons, including death of neurons. Many diseases such as Parkinson's, Alzheimer's, and Huntington’s occur as a result of neurodegenerative processes. I’ve gained insight and interest on this topic from many websites including: http://www.news-medical.net/health/Neurodegeneration-What-is-Neurodegeneration.aspx. I decided on neurodegeneration when I started researching about the conditions such as Parkinson's and Huntington's. These and the other neurodegenerative diseases don’t have a cure but just treatment that can relieve some of the distressing symptoms.
      However thorough research is taking place to find more effective treatments and a cure for some of the diseases. For example based on the idea that stem cells can be used to allow the body to produce dopamine, Australian scientists have come up with a way to effectively reprogram embryonic stem cells so they can act like the dopamine neurons in the brain. It's hoped one day they these can be transplanted into the brains of Parkinson's patients. There’s much more on this on http://www.news-medical.net/news/20111113/Parkinsone28099s-disease-breakthrough-using-stem-cell-therapy.aspx , which I'd like to include in my essay. I’ve done a coursework on schizophrenia that’s also associated to the dopamine levels in the brain, this could help me understand neurodegeneration and what happens in the brain.

      Wednesday, 16 November 2011

      Initial ideas

      There are a few interesting topics that I'm thinking about for my project such as neurodegeneration, systemic lupus erythematosus and anencephaly. All these topics are well related to my studies as I could remember reading about Parkinson's and Huntington's disease from my biology text book and I was quite curious on how stem cells could help alleviate some of the symptoms of Parkinson's. But I might have to base my decision on the amount of information I find. So far neurodegeneration has a big range of diseases I could investigate into, such as Alzheimer's. I know I'm only looking at different diseases for this project but this is where my interest lies and I believe I could gain some useful skills for my future studies in university as I want to study biochemistry which involves doing scientific research.